Piezoelectric, micro-exercise apparatus and method
Abstract
An apparatus and method for micro-exercise apply piezoelectric stress to cells of a bone mass by inducing voltages in the bone mass. Application of dynamic, electromagnetic fields passing through the conductive bone mass induce currents and voltages locally in and around cells or groups of cells. The cells respond to the combination of mechanical stress and strain by building themselves up as they would if they had been subjected to the stress and strain of conventional exercise. Thus, micro-exercise at a cellular level of the bone mass can be stimulated as if the stress and strain had been applied to the entire bone structure of which the smaller cellular portions are constituent parts. In combination with casts or splints, the sources of electromagnetic flux may be embedded in the frame or solid structure, the protective padding added for comfort, or both.
Claims
exact text as granted — not AI-modifiedWhat is claimed and desired to be secured by United States Letters Patent is:
1 . A method for micro-exercise on a cellular level, the method comprising:
providing a frame substantially rigid and defining a first space sized to receive a bodily member of a human; providing a plurality of coils spaced apart, embedded in the frame, and effective to pass electromagnetic flux into the first space; providing a controller fixed to the frame and delivering power to the plurality of coils providing mechanical support to a battery by connecting the battery to the frame in rigid relation thereto; connecting the battery electrically to the controller to provide power to the controller; immobilizing the bodily member of a subject within the first space; programming the controller to provide power to the plurality of coils in a first sequence; controlling, by the controller, delivery of power to energize the plurality of coils; delivering to each coil of the plurality of coils power in accordance with the programming of the controller; and delivering, by the each coil, an electromagnetic flux into the first space proximate the each coil in accordance with the first sequence; and exercising cells within the human, in response to the electromagnetic flux.
2 . The method of claim 1 , wherein the frame is at least a portion of at least one of a splint and a cast and a wrap.
3 . The method of claim 2 , wherein the cast comprises fasteners rendering the cast selectively removable and re-installable.
4 . The method of claim 2 , wherein the cast is a boot cast.
5 . The method of claim 4 , wherein the boot cast further comprises a walking pad.
6 . The method of claim 5 , wherein the walking pad further comprises a witness element detecting walking.
7 . The method of claim 6 , wherein the witness element is selected from a destructively modified surface responding to at least one of weighting and wear, a load detector, and a motion detector.
8 . The method of claim 7 , wherein the witness element is a pedometer.
9 . The method of claim 1 , further comprising executing a first cycling of the power delivered to the each coil at a first frequency substantially continually during an active portion of a first time period.
10 . The method of claim 9 , wherein the first frequency is selected to promote an increase in bone mass.
11 . The method of claim 9 , wherein the first frequency is selected to promote soft tissue repair.
12 . The method of claim 9 , wherein the first frequency is selected to promote skin healing.
13 . The method of claim 9 , wherein the first frequency is selected to relieve inflammation.
14 . The method of claim 9 , further comprising executing a first halting of the first cycling for an inactive portion of the first time and a first repeating of the first cycling and first halting of the first time period throughout a first plurality of time periods, the first plurality of time periods constituting an active portion of the second time period.
15 . The method of claim 14 , further comprising a second halting of the first repeating for an inactive portion of the second time period.
16 . The method of claim 15 , further comprising operating the controller to energize the plurality of coils for a total time of the first activated portions of the first cycling for a duty cycle, wherein the duty cycle is the sum of all the active portions of the first cycling occurring during the second time period, divided by the second time period.
17 . (canceled)
18 . The method of claim 1 , further comprising:
separating the coils of the plurality of coils into regions, each region comprising a corresponding, unique, and proper subset of less than all the coils of the plurality of coils; and reducing interference between magnetic fields created by each coil of the plurality of coils by the first sequencing energizing all coils corresponding to each region substantially simultaneously by region and exclusive of all other regions.
19 - 20 . (canceled)
21 . A method for micro-exercise on a cellular level, the method comprising:
providing a frame substantially rigid and defining a first space sized to receive a bodily member of a human; providing a plurality of coils spaced apart, embedded in the frame, and effective to pass electromagnetic flux into the first space; providing a controller fixed to the frame and delivering power to the plurality of coils; placing the bodily member of a subject within the first space; programming the controller to provide power to the plurality of coils in a first sequence; controlling, by the controller, delivery of power to energize the plurality of coils; delivering to each coil of the plurality of coils power in accordance with the programming of the controller; and delivering, by the each coil, an electromagnetic flux into the first space proximate the each coil in accordance with the first sequence; and exercising cells within the human, in response to the electromagnetic flux.
22 . The method of claim 21 , further comprising executing a cycling of the power delivered to the each coil at a frequency substantially continually during a time period wherein the frequency is selected to promote at least one of skin healing, soft tissue repair, soft tissue maintenance, increase in bone mass, reduction of inflammation, and pain relief.
23 . A method for micro-exercise on a cellular level, the method comprising:
providing a frame, selected from a splint, a wrap, and a selectively removable and replaceable cast, the frame being substantially rigid, defining a first space sized to receive a bodily member of a human, and having fasteners rendering the frame selectively removable and re-installable; providing a plurality of coils spaced apart, embedded in the frame, and effective to pass electromagnetic flux into the first space; providing a controller fixed to the frame and delivering power to the plurality of coils; providing mechanical support to a battery by connecting the battery to the frame in rigid relation thereto; connecting the battery electrically to the controller to provide power to the controller; placing the bodily member of a subject within the first space; programming the controller to provide power to the plurality of coils in a first sequence; controlling, by the controller, delivery of power to energize the plurality of coils; delivering to each coil of the plurality of coils power in accordance with the programming of the controller; delivering, by the each coil, an electromagnetic flux into the first space proximate the each coil in accordance with the first sequence; exercising cells in response to the electromagnetic flux while maintaining the bodily member within the first space; connecting the coils of the plurality of coils into regions, each region comprising a corresponding, unique, and proper subset of less than all the coils of the plurality of coils; reducing interference between magnetic fields created by each coil of the plurality of coils by the first sequencing energizing all coils corresponding to each region substantially simultaneously by region and exclusive of all other regions; executing a first cycling of the power delivered to the each region at a first frequency substantially continually during an active portion of a first time period, wherein the first frequency is selected to promote at least one of skin healing, soft tissue repair, soft tissue maintenance, increase in bone mass, reduction of inflammation, and pain relief; executing a first halting of the first cycling for an inactive portion of the first time period; executing a first repeating of the first cycling and first halting of the first time period throughout a first plurality of time periods, the first plurality of time periods constituting an active portion of a second time period; executing a second halting of the first repeating for an inactive portion of the second time period; and operating the controller to energize coils of the plurality of coils for a duty cycle of from about 0.003 to about 0.1, wherein the duty cycle is the sum of all the active portions of the first cycling occurring during the second time period, divided by the second time period.Cited by (0)
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